Among the topics covered are technological developments in medicine, research that will be published in the next few years that will change the world of science in its many shades, and selected chapters on existing technologies. Among the topics covered are drug development, gene therapy, viruses used for drugs, stem cells, agriculture, and more. The course is designed to enhance student awareness of the course content and its importance in their daily lives by incorporating innovative content and scientific and media sources of information. The course of the lessons: frontal lectures at the end of which is a personal project of lectures according to the student's interest accompanied by the lecturer A detailed teaching plan for all classes: list of topics/course curriculum - a detailed list of the lecture topics in chronological order (list or table such as the Mtsab)
Course goals and learning outcomes (super goals / specific goals):
The purpose of the course - learning new technologies in the fields of life sciences and medicine that may change the way of research and thinking.
Learning outcomes: face-to-face lectures in the context of the students and their research. Knowledge of new biological technologies in science Researching and applying the knowledge based on the student's interests or research Building a personal protocol for a new technology that can affect research
Advanced technologies in cell separation - introduction to cell separation - analysis of results.
Image-dependent cell separation - advantages and disadvantages - is it possible to reach a sort.
New methods for separating large particles, seeds, and parasites.
Cell separation in medicine - new sterile methods for cell separation.
New methods in SORT, combining several separation methods to obtain clean products
Spectral cell scan
Molecular methods and their integration in the world of technology
Introduction to molecular biology - NGS
Dynamics of technologies - why promising technologies disappeared.
Alternative methods for flooring. New protocols for preparing libraries - cleaning the samples and getting accurate and clean results.
Multi-pattern flooring.
Methods of sequencing the single cell, advantages, and disadvantages.
Is this the technology that will replace the FACS and the microscope in the future?
Introduction to light microscopy
Advanced technologies - light microscope - super-resolution STED, SIM/STORM
Single-molecule fluorescence techniques light-sheet microscopy
Multispectral Imaging and Unmixing.
new methods in histology: Gene expression and sequencing.
Combining RNA sequencing and protein expression - antibodies connected to a barcode sequence (linker). Identification of heavy metals - mass spectrometry and multidimensional analysis
*There may be changes in the syllabus depending on learning progress and effectiveness
Duties/requirements/assignments:
Course assignments - a 15-minute lecture on the student's relevant equipment for further research.
Recommended:-Course 80801